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Unsere Produktgruppen

We are world leaders in advanced wound management, orthopaedics and sports medicine technologies and solutions.

Wir haben eine globale Geschäftsstruktur mit drei Geschäftsbereichen: Modernes Wundmanagement, Orthopädie und Sportmedizin + HNO.

Die Aufteilung unseres Geschäfts in Fachbereiche soll sicherstellen, dass wir über Fach- und Marktexperten verfügen, die spezialisierte Teams leiten, welche die spezifischen Anforderungen unserer Kunden erfüllen.

Wir konkurrieren auf globalen Märkten im Wert von rund 42 Mrd. USD, die von langfristigen Trends angetrieben werden und vor 2020 und den Auswirkungen von COVID jährlich um etwa 4 % wuchsen.

Orthopädie

Smith+Nephew’s Orthopaedics franchise includes an innovative range of hip and knee implants used to replace diseased, damaged or worn joints, robotics-assisted enabling technologies that empower surgeons, and trauma products used to stabilise fractures and correct bone deformities.

Our Hip and Knee Implant portfolio includes products made from OXINIUM, an advanced load bearing technology created through a proprietary manufacturing process. We believe that OXINIUM exhibits unique performance characteristics due to its hardness, low-friction and resistance to roughening and abrasion.

In Knee Implants, Smith+Nephew’s specialised systems include leading products for total primary replacement and revision, as well as partial and patellofemoral joint resurfacing procedures. The portfolio includes cemented and cementless systems and we are the only company to offer both options in total and partial knees implants in the US. Our Hip Implants portfolio offers a full breadth of stems to address global philosophies, revision options and an advanced Dual Mobility System featuring OXINIUM.  Our Hip and Knee portfolio is supported by surgical and digital technologies including the CORI Surgical System, a CT free and easily portable robotics platform.

In Trauma & Extremities we offer leading products including plating systems for bone repair, hip fracture systems, external fixator devices and a shoulder replacement and upper and lower extremities portfolio.

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Sports Medicine + ENT

Smith+Nephew’s Sports Medicine + ENT franchise operates in growing markets where unmet clinical needs provide opportunities for procedural and technological innovation. We have a rich history of product development, and our technologies, instruments and implants enable surgeons to perform minimally invasive surgery of the joints, including the repair of soft tissue injuries and degenerative conditions of the shoulder, knee, hip and small joints.

In Sports Medicine Joint Repair (SMJR) we market products for shoulder repair, including Rotator Cuff Repair and instability repair, two of the most common sports medicine procedures, and provide surgeons with extensive options for knee repair.

In Arthroscopic Enabling Technologies (AET) our products facilitate the practice of arthroscopic surgery and include connected surgical towers for the operating room, high definition imaging systems and surgical systems that enable surgeons to remove soft tissue and control bleeding in a variety of arthroscopic procedures.

In Ear, Nose & Throat (ENT) we provide low temperature technologies to remove tonsils and adenoids and in-office solution for placement of tympanostomy or ear tubes.

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Modernes Wundmanagement

Die Vision von Smith+Nephew im Bereich Modernes Wundmanagement ist es, die Wundversorgung kontinuierlich zu verbessern. Durch unser umfangreiches Portfolio, das auf breite und komplexe klinische Bedürfnisse zugeschnitten ist, helfen wir medizinischen Fachkräften, die Herausforderungen bei der Prävention und Heilung von Wunden zu meistern.

Im Bereich Advanced Wound Care (AWC) umfasst unser Portfolio Produkte zur Behandlung von Exsudaten und Infektionen, zum Schutz der Haut und zur Vermeidung von Druckverletzungen.

Im Bereich Advanced Wound Bioactives (AWB) bieten unsere Produkte einen einzigartigen Ansatz für Debridement, Hautreparatur und Gewebeersatz.

Im Bereich Advanced Wound Devices (AWD) umfasst unser Portfolio sowohl herkömmliche als auch Einwegsysteme für die Unterdruck-Wundtherapie, die dazu beitragen, die Heilungsergebnisse bei chronischen Wunden zu verbessern, Komplikationen an der Operationsstelle zu verhindern und Druckverletzungen vorzubeugen.

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News and Announcements

References
  1. National Scorecard on Hospital-Acquired Conditions, Agency for Healthcare Research and Quality (AHRQ). June 2019.
  2. Wassel CL, Delhougne G, Gayle JA, Dreyfus J, Larson B. (2020). Risk of readmissions, mortality, and hospital-acquired conditions across hospital-acquired pressure injury (HAPI) stages in a US National Hospital Discharge database. Int Wound Journal, DOI; https://doi.org/10.1111/iwj.13482.
  3. Pickham D, Berte N, Pihulic M, Valdez A, Mayer B, Desai M. Effect of a wearable patient sensor on care delivery for preventing pressure injuries in acutely ill adults: A pragmatic randomized clinical trial (LS-HAPI study). Int J Nurs Stud. 2018;80:12-19.
  4. Bauer K, Rock K, Nazzal M, Jones O, Weikai Q. Pressure Ulcers in the United States’ Inpatient Population From 2008 to 2012: Results of a Retrospective Nationwide Study. Ostomy wound management. 2016;62(11):30-38.
  5. Bergquist-Beringer S, Dong L, He J, Dunton N. Pressure ulcers and prevention among acute care hospitals in the United States. Jt Comm J Qual Patient Saf. 2013;39(9):404-414. (4)
  6. Schallom L, Metheny NA, Stewart J, et al. Effect of frequency of manual turning on pneumonia. Am J Crit Care. 2005;14(6):476-478.
  7. Schutt SC, Tarver C, Pezzani M. Pilot study: Assessing the effect of continual position monitoring technology on compliance with patient turning protocols. Nurs Open. 2017;5(1):21-28.
  8. Yap T, Kennerly S, Ly K. Pressure ulcer prevention: a pilot study of outcomes and challenges to use of resident monitoring technology in a nursing home. J Wound Ostomy Continence Nurs. 2019;47(3):207-213.
  9. Voz A, Williams C, Wilson M. Who is turning the patients? A survey study. J Wound Ostomy Continence Nurs. 2011 Jul-Aug;38(4):413-8.
  10. Gunningberg L. Are patients with or at risk of pressure ulcers allocated appropriate prevention measures? Int. J. of Nursing Practice. 2005; 11: 58–67.
  11. Bours G, Halfens R, Abu-Saad H, Grol R. Prevalence, prevention and treatment of pressure ulcers: Descriptive study in 89 institutions in the Netherlands. Research in Nursing and Health. 2002; 25: 99-110.
  12. Goldhill D, Badacsonyi A, Goldhill A, Waldman C. A prospective observational study of ICU patient position and frequency of turning. Anaesthesia. 2008; 63: 509-515.
  13. Winkelman C, Ling-Chun, C. Manual Turning in Patients Receiving Mechanical Ventilation. Critical Care Nurse 2010; 30 (4): 36-44.
  14. Krishnagopalan S, Johnson EW, Low LL, Kaufman LJ. Body positioning of intensive care patients: clinical practice versus standards. Crit Care Med. 2002;30(11):2588-2592.
  15. Wade S. Using Turn Cueing Technology to Reduce HAPIs in LTACH: Pilot Results. Poster presented internally at Centra Specialty Hospital, 2020.
  16. Rosini L. Leveraging novel technology to decrease hospital-acquired pressure injuries. Poster presented at: American Organization for Nursing Leadership. March 18–21 2020; Nashville, TN, USA.
  17. Goodridge DM, Sloan JA, LeDoyen YM, McKenzie JA, Knight WE, Gayari M. Risk-assessment scores, prevention strategies, and the incidence of pressure ulcers among the elderly in four Canadian health-care facilities. Can J Nurs Res. 1998;30(2):23-44.
  18. European Pressure Ulcer Advisory Panel, National Pressure Injury Advisory Panel and Pan Pacific Pressure Injury Alliance. Prevention and Treatment of Pressure Ulcers/Injuries: Clinical Practice Guideline. Emily Haesler (Ed.). EPUAP/ NPIAP/PPPIA: 2019.
  19. Parker C, et al. Strive Towards Calnoc Excellence: Adopting Innovation to Improve Bedside Nursing Care. Kaiser Permanente, Redwood City, CA.
  20. Smith+Nephew 2020.Leveraging novel technology to decrease hospital-acquired pressure injuries. Internal Report. EO.AWM.PCS006.001.v1.
  21. Gasparini R, Derisma Q, Hannon R. “Turning” to Technology: Reducing Hospital Acquired Pressure Injuries in Critical Care with Visual Turn Cueing. Poster presented at: National Pressure Injury Advisory Panel Annual Conference; March 10- March 12, 2021; Virtual Conference.
  22. Klaeb M, Krafft K, Walters B, Lowe J, Cooley A. The Influence of Wearable Technology on Nursing Attitudes and Adherence to Patient Turning and Repositioning. Poster presented at: Patient Handling and Mobility Annual Conference; March 5- March 7, 2019; Orlando, Florida, USA.

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